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Quo vadis fusion ?

Linhart G. J.

Nukleonika

2009

Vol. 54, No. 4

305-310

A brief history of the discovery of nuclear fusion, first as the motor of the stars and subsequently its first realization as H-bombs, is described. The efforts of trying to make it into a source of energy for mankind as a controlled nuclear fusion (CNF) are sketched out. We shall mention the main research approaches, so far explored, i.e. the magnetic confinement fusion (MCF), the inertial confinement fusion (ICF) and the beam-target fusion (BTF) and point out the main difficulties connected with these three ways to CNF. The present trend to concentrate the main research potential on just two embodiments of MCF and ICF, i.e. the Tokomak and the laser driven spherical pellet, is criticized arguing that other promising approaches may be left unexplored. Such approaches, some in which the use of advanced, a-neutronic fuels is envisaged appear at present more arduous, but perhaps eventually more simple and safe. A promising symbiosis of fusion-fission is also mentioned.

Transmission electron microscopy in plasma surface interaction in fusion research.

Hirai T., Linke J., Majerus P., Rödig M.

Archives of Materials Science

2005

Vol. 26, nr 1-2

89-94

Transmission electron microscopy (TEM) is a powerful method to study the microstructure of plasma facing materials in fusion devices. The main topics that have been presented so far are the observation of radiation damage caused by particle bombardment and the characterization of deposits and dust created in fusion devices and transient heat load events. The present work summarizes the recent TEM works in this field and the possible use of TEM studies in high heat flux testing.